# ode113

Solve a system of non-stiff differential equations.

## Syntax

[t,y] = ode113(@func,tin,y0)

[t,y] = ode113(@func,tin,y0,options)

[t,y] = ode113(...)

## Inputs

`func`- The system of equations to solve.
`tin`- The vector of times (or other domain variable) at which to report the solution. If the vector has two elements then the solver will operate in single step mode and determine appropriate intermediate steps.
`y0`- The vector of initial conditions.
`options`- A struct containing options settings specified via odeset.

## Outputs

- t
- The times at which the solution is computed.
- y
- The solution matrix, with the solution at each time stored by row.

## Example

Find the transient current in a series RLC circuit.

```
function dy = RLC(t,y,R,L,C)
% y = [i, di/dt]
dy = [0, 0];
dy(1) = y(2);
dy(2) = -y(1)/(L*C) - y(2)*(R/L);
end
v = 2.4; % volts
R = 1.1; % resistor
L = 1.6; % inductor
C = 0.8; % capacitor
handle = @(t,y) RLC(t,y,R,L,C);
t = [0:0.2:12]; % time vector
yi = [0, v/L];
[t,y] = ode113(handle,t,yi);
i = y(:,1)'
```

```
i = [Matrix] 1 x 61
0.00000 0.27884 0.51377 0.70351 0.84839 0.94995 1.01078 1.03433 1.02469
0.98645 0.92434 0.84325 0.74801 0.64324 0.53316 0.42164 0.31224 0.20786
0.11085 0.02308 -0.05406 -0.11968 -0.17334 -0.21506 -0.24514 -0.26416
-0.27303 -0.27276 -0.26465 -0.24991 -0.22977 -0.20556 -0.17843 -0.14961
-0.12013 -0.09095 -0.06290 -0.03664 -0.01271 0.00850 0.02673 0.04184
0.05377 0.06262 0.06849 0.07160 0.07223 0.07066 0.06726 0.06234 0.05623
0.04928 0.04178 0.03403 0.02628 0.01877 0.01168 0.00517 -0.00065 -0.00570
-0.00994
```

## Comments

ode113 solves the system using the Adams method algorithm from the Sundials CVODE library.

To pass additional parameters to a function argument, use an anonymous function.

- RelTol: 1.0e-3
- AbsTol: 1.0e-6